Why does molybdenum have 6 valence electrons?

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Nikki asked:


I’m doing a report for science and everyplace I’ve checked says molybdenum has 6 valence electrons, but no one says why.

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This entry was posted on Saturday, August 16th, 2008 at 7:39 pm and is filed under Chemistry. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or trackback from your own site.

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3 Responses to “Why does molybdenum have 6 valence electrons?”

  1. nowaynohow Says:
    August 17th, 2008 at 7:14 pm

    Every atom (when it is not in a molecule) has an equal number of electrons and protons - that keeps it electrically neutral. The electrons fill up in low energy states first, and will fill the lowest “shell”, the the next lowest “shell”, and so on. For molybdenum, its outermost shell is not full, but has 6 electrons. (If I remember, that shell would be full with 8 electrons.) So that tells you that a molybdenum atom is going to want to grab a couple extra electrons, when forming a molecule, to fill its valence shell.

  2. Jazmine J Says:
    August 18th, 2008 at 9:42 am

    the way you figure out valence electrons is by looking at what row its on..once you find the row count over until you find the element. then what ever number you are at is the number of valence electrons there are. on the row with molybdenum it is the sixth one. thats how they got six!!
    Hope that helped!!!

  3. Stephen McNeil Says:
    August 20th, 2008 at 7:35 am

    Sort of depends on how you define the word “valence”, actually. There are two ideas here — one is how to find the answer, and the other is what the answer is actually telling you, which is the more interesting bit.

    For the most part, you can just look at the number of the Group in which you find in the element. If you’re using a modern periodic table, the columns are numbered Groups 1 to 18. For the first 10 groups, the number of valence electrons on an atom equals the group number, and for Groups 11-18, it’s Group number minus 10.

    Valence electrons are those that get involved in chemistry. They might be lost or gained or shared to form bonds, or they might just sit in the frontier orbitals of a compound and change the properties, but the # of valence electrons are those that determine the chemistry — which is why the periodic table, acting as a map to valence electron configuration, is such a useful organizing tool. A valence electron count is always the starting point for any kind of explanation of chemical behaviour. As you move across the table, you add one electron to the valence shell for each element, until the shell fills at Group 18 and then you start over with a new row.

    Thus, Li, Be, B, C are in Groups 1, 2, 13, 14, and they have 1, 2, 3, 4 valence electrons respectively.

    Mo is in Group 6 (under chromium), so it has six valence electrons. There are 42 electrons total, 36 of which fill up the “core” orbital shells — too low in energy and too contracted in size to directly take part in chemistry or bonding, which leaves six to play with. The ground state electronic configuration for a Mo atom is [Kr]4d(5)5s(1) — so there are your six valence electrons.

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